THE SIZE OF ELEMENTARY PARTICLE IN THE VIEW OF LAWS OF EXACT VELOCITY
Journal: International Journal of Advanced Research in Engineering and Technology (IJARET) (Vol.7, No. 6)Publication Date: 2016-12-20
Authors : B. UPPALAIAH;
Page : 26-36
Keywords : Elementary particles; de Broglie matter waves; uncertainty principle; Total energy quantization; Size of elementary particle.;
Abstract
Elementary particles are never in rest position. Hence it must be composite of n number of energy terms. In which each term corresponds to its own position and momentum. The first and second laws of exact velocities suggested that the total energy of elementary particle quantized in the ascending order towards the spin axis. The spin of elementary particle defined as the vector sum of angular momentum of n components. Therefore the radius of outermost component gives the size of elementary particle. This theoretical method determines the exact size of proton. And it implies the existence of stationary orbits inside the elementary particle.
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